Engineering & Materials Science
Carbon nanotubes
100%
Nanotubes
48%
Laser ablation
47%
Ultrashort pulses
40%
Laser pulses
39%
Lasers
35%
Single-walled carbon nanotubes (SWCN)
34%
Ablation
31%
Fullerenes
27%
Ions
27%
Chemical vapor deposition
25%
Pulsed lasers
22%
Electrons
20%
Ultrafast lasers
20%
Carbon nanofibers
19%
Graphene
16%
Electrodes
16%
Atomic force microscopy
16%
Metals
14%
Carbon
14%
Sapphire
14%
Explosions
13%
Atoms
13%
Carbon nanotube field effect transistors
13%
Thin films
13%
Silicon
13%
Plasma enhanced chemical vapor deposition
13%
Temperature
12%
Fabrication
12%
Raman spectroscopy
11%
Hot Temperature
11%
Substrates
11%
Catalysts
11%
Multiwalled carbon nanotubes (MWCN)
10%
Semiconductor materials
10%
Telegraph
10%
Electrophoresis
10%
Mass spectrometry
9%
Field emission
9%
Femtosecond lasers
9%
Picosecond lasers
9%
Electrostatics
9%
Electric fields
9%
Nanofibers
9%
Energy gap
9%
Field effect transistors
8%
Ion implantation
8%
Photonic crystals
8%
Raman scattering
8%
Charge transfer
7%
Physics & Astronomy
carbon nanotubes
88%
fullerenes
86%
lasers
43%
fragmentation
42%
collisions
37%
laser ablation
28%
nanotubes
28%
ionization
26%
pulses
25%
carbon
23%
fluence
22%
ions
21%
excitation
18%
energy
18%
charge transfer
18%
atoms
17%
ablation
16%
desorption
16%
molecules
15%
alignment
15%
vapor deposition
14%
electron emission
13%
vapor phases
13%
fusion
12%
ultrashort pulsed lasers
12%
mass spectroscopy
12%
molecular orbitals
12%
electrodes
12%
photoelectrons
12%
electronics
11%
cross sections
11%
explosions
11%
field effect transistors
11%
field emission
10%
catalysts
10%
fragments
10%
relay
10%
photoelectron spectroscopy
10%
photoionization
10%
pulse duration
10%
thresholds
10%
implantation
9%
sapphire
9%
electrons
8%
temperature
8%
internal energy
8%
molecular dynamics
8%
photons
7%
graphite
7%
irradiation
7%
Chemical Compounds
Carbon Nanotube
63%
Fullerene
49%
Nanotube
35%
Single Walled Nanotube
34%
Laser Ablation
31%
Ablation
30%
Molecular Cluster
24%
Multi Walled Nanotube
21%
Fragmentation
21%
Carbon Atom
21%
Collision
20%
Electron Emission
19%
Energy
18%
Dielectric Material
17%
Liquid Film
17%
Ionization
16%
Behavior as Electrode
14%
Carbon Nanofibre
13%
Ion
13%
Semiconductor
12%
Field Effect
12%
Voltage
12%
Electron Particle
11%
Surface
11%
Velocity
11%
Metal
11%
Cooling
11%
Charge Transfer
10%
Laser Desorption
9%
Electric Field
9%
Photoionization
9%
Time
9%
Molecule
9%
Graphene
9%
Catalyst
9%
Plasma Enhanced Chemical Vapour Deposition
9%
Cluster Ion
8%
Atomic Force Microscopy
8%
Raman Spectroscopy
8%
Field Emission
8%
Laser Desorption Mass Spectroscopy
7%
Wavelength
7%
Surface Damage
7%
Desorption
7%
Photoelectron Spectroscopy
7%
Simulation
7%
Excimer
7%
Ion Implantation
7%
Rydberg State
7%
Momentum
7%
